Electric heater



Feb. 9 G. STEINGRUBER 3 ELECTRIC HEATER Filed Feb. 3, 1940 s Sheets-Sheet 1 Feb. 18, 1941. G. STEINGRUBER 2,232,492

ELECTR I C HEATER Filed m. s, 1940 5 Sheets-She; 2

\ y l inventor 6T J'Zezhyrabar all'ouwlp Feb. 18, 1941. STElNGRUBER 2,232,492

ELECTRI C HEATER Filed Feb. 3, 1940 5 Sheets-Sheet 3 9 s. STEINGRUBER 32,492

' ELECTRIC HEATER F11 Feb. 3, 1940 5 Sheets-Sheet 4 Feb. 18, 1941. a. STEINGRUBER 2,232,492?

ELECTRIC HEATER Filed Feb. 5, 1940 5 Sheets-Sheet 5 Patented Feb. 18, 1941 UNITED STATES PATENT OFFICE This invention appertains to electric space heaters, and -more especially to an improved heater construction having a relatively high heating capacity and suitable for use as a central heater for dwellings, ofllce building factories, stores, and other commercial establishments hav-' ing one or more large rooms or a plurality of rooms 01' ordinary size arranged on one or more levels.

I am aware that it is not broadly new to provide a plurality of heating elements or sources of heat in a single heater, but I have devised a novel arrangement of heating elements and associated heat reflecting and radiating surfaces by which I am able to obtain a substantially uniform distribution and diffusion of heat in all directions with a minimum consumption of energy or power. The efllciency and economy of operation of my new space heater are materially higher than are normally found in heaters or this general class, this being largely due to the employment of a combination of reflected, radiated and circulated heat 'in such a way that each is efl'ective in all directions. The novel arrangement of the reflecting and radiating surfaces in my heater which constitutes the present invention, further plays an important part in the attainment of an unusually highly efliclent flow oi air through the heater and attendant circulation of heat.

My new heater readily lends itself to a construction suitable for use as a permanent and flxed installation, or it may be made in the form of a portable unit as illustrated in. the accompanying drawings, in which latter form the heater can be conveniently moved about from one locabeen given to the provision of a heater construction which is simple and composed, of comparatively few and inexpensive parts and which may be easily and quickly assembled. These features, together with the compact form of the heater, make it especially advantageous from a low cost production point of view. The low cost of elec trical power which prevails in certain sections of the country and the trend toward reduction of power rates in other sections has created an increased demand for a practical low priced heater which my new heater eminently fllls. In the average case, especially in locations where the cli 5 approximately on the plane or line a e of systems, but of course it may be employed as an auxiliary source of heat.

. to create a chimney effect for circulating air upwardly through the central part of the heater and discharging the air in a heated condition laterally through outlets provided in the casing walls.

Another object of the invention is to provide a portable light-weight electric space heater embodying a plurality of heating elements arranged in association with heat reflecting and radiating. surfaces which also function as air directing and controlling means by which the air is soaked I with heat and the heat is reflected, radiated, and circulated to discharge laterally in a plurality of directions, about a common vertical axis.

A still further object of the invention is to provide a heater of the character described. in the preceding paragraph, wherein provision is made for selectively controlling the heating, elements so that the heat discharged from the heater may be substantially confined to predetermined direc- 3Q tions and discontinued in other directions.

Other and further objects and advantages of the invention will be hereinafter described, and the novel features thereof defined by the an pended claims.

In the drawings:

Figure 1 is a perspective view of an electric space heater constructed in accordance my invention;

Figure 2 is a view of the heater in side elevation, the right-hand portion thereof being broken away and the parts shown in vertical section;

Figure 3 is a horizontal sectional view taken 2 looking" in a downward direction;

Figure 4 is a horizontal section taken approxi mately on the line l4 oi. Figure 2 looking in. an upward direction;

Figure 5 is a fragmentary vertical sectional view 50 taken approximately on the plane of line 5--5 of Figure 2; c

Figure 6 is a diagrammatic view of the electrical heating elements and associated circuits and controls as observed in bottom plan;

Figure '7 is a perspective view of the reflec unit or shell; and

Figure 8 is a perspective view of the heating element assembly or unit.

Like reference characters designate corresponding parts in the several figures of the drawings, wherein 8 generally denotes the outer shell or casing of the heater which is preferably constructed of sheet metal, providing a plurality of vertical adjoining side walls having grill-like openings 2 formed therein. While the heater shell illustrated in the drawings is in the form of a generally rectangular structure having four side walls, it is to be understood that the same may be modified to provide a greater or lesser number of walls, as will hereinafter more fully appear. In other words, the casing may be cylindrical in horizontal cross section, or it may have three or more adjoining sides arranged about a common vertical axis, the wall or walls being suitably apertured to permit the directing of the heat laterally in substantially all directions respecting the vertical axis. I havefound, however, that a four-sided shell is quite satisfactory for general purposes, and the following description will accordingly be directed to such a construction.

Attached to each lower corner of the shell is a leg member or support 3, which may also be formed of sheet metal if desired, to-elevate the lower end of the shell or casing a suitable disstance above the supporting surface upon which the heater is disposed when in use, thus enabling air to freely enter the bottom of the casing or shell i which is open at its bottom for this purpose. The walls of the casing I and the legs 3 may be made from simple metal stampings and secured together in any suitable manner, preferably by means of welding. Removably mounted upon the upper end of the casing I is a top or cover 4 having a bail-like handle 5 extending downwardly at its opposite ends through slots i formed therein, the lower extremities of the handle 5 being bent laterally, as at I, to engage the under side of the top or cover. and thus prevent complete displacement of the handle from the cover when the handle is lifted upwardly. When not in use, the handle may be moved downwardly through the slots to a position in which the transverse portion of the handle lies relatively close to the upper surface of the'cover 4, this position facilitating packaging or storage of the heater in a space of minimum size. Screws I, or other removable fastening means, are preferably employed to secure the cover 4 to the upper ends of the side walls of the casing, I.

Near the upper end of each of the side walls of the casing a portion of the metal is pressed out to provide a laterally inwardly pr jecting flange 9, leaving an opening II above the grill openings 2, the opening II constituting a hotair discharge opening, as will hereinafter more fully appear. The serve to support a reflector shell generally dted II, which is best shown in Figure 7, the reflector shell preferably having the form of a unitary structure. The reflector shell comprises a plurality of ldjdning sidewalls I2 ,eachofwhichiscm'vcdinwardly fromitsupperedgetoapolntaboutmidwaybetween the upper and lower edges, and thmce extending downwardly in a substantially vertical directionorcurvingsligh ly outwardly, aswillbe besttmderstood fromreferencetollmi. M eachadjoiningcorneroftheiudewalb than is provided a wing I3 which Extends diagonally. downwardly from the corner. Itch pair of wings plate In.

II, II, together with an intermediate side wall II, forms what may be generally termed a concave heating chamber I4 facing in an outward direction. Thus, the reflector unit forms a plurality of adjoining heating chambers arranged about a common axis. The side walls II of the reflector unit II are spaced from the central axis of the unit and form a central flue I5 extending vertically through the unit from top to bottom.

' The reflector shell or unit II is suspended coaxially in the outer shell or casing I by engagement of the upper ends of the side walls I2 of the reflector unit with the flanges 9 previously described. Screws Ii, or other removable fastening instrumentalities, may be used to securely attach the reflector unit II to the casing I. In the assembled position of the reflector shell in the easing I, the diagonal wings or panels I3 project outwardly substantially to the corners of the casing I, as will be best seen in Figures 3 and 5, thereby restraining the reflector unit against displacement about the vertical axis relative to the casing I. When so positioned, the respective heating chamhers I of the reflector unit will lie opposite the respective side walls of the casing I, facing the openings 2 in the walls of the latter, so that. the heat developed within the chambers I4 will be directed outwardly through the openings 2' in the casing I. terminates somewhat above the bottom of the casing I. Air entering the bottom of the casing I will, accordingly, freely pass upwardly into the central flue I! of the reflector unit II, and ultimately the air passes outwardly through the openings II in the respective side walls of the casing I, at the upper end of the reflector shell.

Referring now to Figures 3, 5, and 8, I1 generally denotes a heating element assembly or unit which comprises a base or frame I8 having the form of a plate which is adapted to be horizontally disposed across the lower end of the casing or shell I. The area of this plate I! or base is somewhat less than the cross sectional area of the space embraced within the side walls of the easing I, so that the marginal edges of the plate II will be spaced from the side walls of the casing, thus permitting air to flow upwardly between the walls of the casing I and the outer edges of the The marginal edges of the plate II are preferably provided with upwardlyturned flanges I! to stiffen the same. The plate I8 maybe mounted in the casing I in any suitable manner, the mounting being preferably of a type which permits convenient removal of the plate. One

- simple form of moimting, as illustrated in the drawings, comprises a pair of angle brackets 2| welded or otherwise flxedly attached to oppomte side walls of the casing I, and having arms extending inwardly of the casing beneath opposite edges of the plate II. Porcelain or other suitable insulating means II are preferably interposed be- The lower end of the reflector shellv mm vertically upwardlyJrom the plate II,

as best shown in Figures and 8. The standards of each pair are spaced from each other and positinned near opposite corners of the plate II, and the standards are preterably of such width and thickness as to be substantially rigid. Attached to the inside of each standard 23 is a relatively thin flexible plate 24 having a boss or lug 25 projecting toward the corresponding plate 2 of the opposed standard 23 of the same pair. These flexible plates 24 are secured to their respective standards 23 at their lower ends, so that their uper ends are free to move towards and away from the standards. The upper extremity of each flexi ole plate 2% is provided with a tongue 26 which is bent laterally towards its contiguous standard 23,

is helically wound an electrical resistance A bhon which may be of any conventional c normally employed for electrical heat- The heating elements are each disposed in a substantially horizontally position, with the opposite open ends of the refractory tubes 29 engag-ed over the lugs or bosses 25 carried by the exilole plates 24. By this arrangement, the heatelements may be conveniently assembled and moved for replacement, and, when assembled, heating elements will be yieldably supported in a way as to minimize damage which might unwise occur as a result or jars orshocks inn reon in shipping or moving the heater 3n niece to place. The flexible plates M osing pair of standards 23, 23 will exert ldable endwise pressure upon each element While the standards nmiselyes more or less rigid, they will of aisle to some extent, thus supplementing the yieldable pressure exe de the heating elements it by on to and above the base relate and e e heating unit, as a whole, is as sernbied in casing i as previously described, there will one heating element 28 disposed transversely in each of the heating chambers M formed lay the reflector unitior shell i I. It is in be particularly noted the lower end of the re-v Elector unit or shell ii is also spaced somewhat above the base plate 53 of the heating unit or assembly H, the purpose of which will be more fully described in the description or the operation of the invention. Moreover, the heating eiements 2%! are themselves located in the respective heating chambers i l at a distance somewhat alcove the extreme bottoms of these chambers;

As a further aid to the resistance of displacement of the reflector unit ll respecting the casing i, the lower ends of the wing members M of the reflector unit are received between the contiguous standards 23 of each adjacent pair of standards, as is clearly shown in Figure 3. Such an arrangement also prevents warpage of the wing members i3, and otherwise contributes to the rigidifying of the heater assembly. h

As best shown in Figures 2, 3 and 8, there is 21, between the the heater attached to. each edge of the base plate It a reflector plate 3i, which extends upwardly therefrom in outwardly spaced relation to the corresponding heating element 28 which is also mounted adjacent to the edge of the base plate. The upper edges of the plates 3| terminate about on a level with the heating elements 28, and the plates ill may thus be considered as a continuation of the walls oi the respective heating chambers 58 at the front the latter. The/attachmerit of the plates 3i to the base plate i8 may be efiecteci in any suitable manner, as, for instance, by means of brackets 32 of approximate Z shape, the upper arms of the brackets being secured to the base plate it, as at 33, and the lower arms of the brackets being attached, as at 34, to a lateraliy inwardly turned flange 35 on the lower edge oi the plate 3i. This arrangement disposes the low-er edge or each plate 3! below the base plate and spaces the plate at irom the base ate: it so that air ireely pass upwardly therebetween from a point below the base plate iii.

The reflector unit ii and the plates 3i are prefera'bly composed oil sheet metal having a high polish for having a suitable light and heat reflecting material applied onto the metal surfaces. lihromiurn plated metal plates are especially useful for the construction of these elements, since the chromium plating a highly efficient light and lent reflector, and will not tarnish readily.

:lng particularly to Figure 6, the heating elements diagrammatically illustrated in It is to he understood, however, that the ing u on thenature or the power source which available diflerent places where the into ed. According to the diagram, 36 represents -e or conductors by which an Ice connected to any convenient source oi electrical pa er, such. as a 220-volt A. C. For a power system of this type, the el ments 228 are preferably arranged in series circuits, each circuit containing two heating elements 28, and the separate series circuits provided with controls so that they may he ener med independently of one another, as well used -multaneously. According to the arrangement shown in Figure 6, the conductors etc i to the respective terminals and ac, n. carried by a. ten ininal panel tin or secured to the bottom of the base plate 58 the heater assembly it. A. control switch interposed in one of the conductors 36 to enable the current to be turned of! turned on at will. This switch it will, for convenience, be termed the master switch, because the main switch which controls the energiaation of the heater irrespective of the number of heating elements 223 which are in use, or are to he operated.

Connected to one of the terminals, for example, terminal 3?, is a conductor iii which leads to a contact ii of an auxiliary switch 63, which auxiliary switch @3 is interposed between the terminal 31 and heating element 23 which is disposed at the right hand side of the view shown in Figure 6. This heating element is connected in series with the heating element 28 at the bottom of the view, as indicated by the connection N between the adjacent ends of the heating elements. The lefthand end of the heating element at the bottom of the view, Figure 6, is connected with the other terminal, in this instance 38, to which one of the feed wires or conductors 38 is connected. Accordingly, when the master switch 40 is closed, the current will flow from one of the feed conductors to the terminal 31, and from the terminal 31 through the conductor 4| and through the switch 43, when closed, to the heating elements 28, 28 connected in series at 44, back to the terminal 38, and back through the other feed conductor 36 which has been indicated on the drawings by the negative symbol.

A generally similar circuit arrangement is provided in the case of the other heating elements 28, 28 located at the top and left-hand sides respectively of the view, Figure 6. This latter circuit includes a second auxiliary switch 45 and contact 46 interposed between the adjacent ends of the heating elements 28, 28 of this circuit. Tracing the circuit through, and assuming that the auxiliary switch 45 and master switch are closed, the current flows from one of the feed conductors it, say the one indicated by the positive symbol, through the master switch 40 to the terminal 87, and then through the heating element 28 at the left-hand side of Figure 6, through the auxiliary switch 45, and then through the heating element 28 at the top or the view, to the terminal 4'! which is connected by a conductor 48 to the terminal 38, and then back to the other feed wire 35 which is represented by the negative symbol.

It will be understood from the foregoing that when the master switch 40 is closed and both ,of the auxiliary switches 43 and are closed, both of the respective circuits containing the two heating elements 28,18 in series will be energized simultaneously, and will be arranged in parallel across the main feed lines or conductors 36. Bysimply opening one or the other of the auxiliary switches 43, 45, one or the other of the series circuits containing the heating elements 28, 28 may be disconnected or interrupted. This is of particular advantage when it is desired'to have the heater develop less heat than that produced when operating at its maximum capacity; but more especially it admits of the location of the heater in a position relatively close to a wall or some other object without causing the wall or object to be scorched, burned, or otherwise damaged by the heat. For emmple, it may sometimes be desired to move the heater to a position near or close to the corner of a room formed by two adJacent wall surfaces, so that the heater will be out of the way. This would be dangerous if all of the heating elements were operating. By actuating one of the switches 43 or 45 to its 0 position to deenergize the two heating elements 28, 28, which would be next to the walls of the room under such a condition, the heat is substantially discontinued in the direction of these room walls, leaving the other two heating elements 18, 28 eflective for heating the room at the sides of the heater which are disposed outwardly of the room.

As clearly shown in Figure 8, the wiring between the heating elements 28 and the terminals 37, "on the bracket or terminal panel, and

the connections between the heating elements and the switches arefreely run below the base plate It of the heating unit assembly ll. Wherever such wiring pwses through the base plate I8, there is preferably provided a porcelain or other insulating sleeve to maintain the wiring therethrough in an upward direction for direct contact with the heating elements 28. At the center of the base plate II is another aperture or plurality of apertures 50 by means of which air is free to pass upwardly therethrough to the central flue "I! of the reflector unit H.

In order to prevent accidental shortcircuiting of the wiring beneath the base plate I! of the heater unit assembly I], and to prevent rugs or other objects from inadvertently contacting the relatively hot parts of the heater at the bottom thereof, as well as preventing undue radiation of heat in a downward direction towards floor coverings or other supporting surfaces upon which the heater is placed, I preferably provide a bailie plate 51 which is mounted acrom the bottom of the outer casing or shell I. This bame plate is preferably flanged around its marginal edges to stiffen the same, and its area is somewhat less than the cross sectional area embraced within the side walls of the casing l The baiile plate 5| may be conveniently attached to the casing by means of lateral plates 52 which are secured to the bottom of the baiile plate, as by welding, and project laterally beneath the inwardly-turned flanges 53 formed on the lower ends of the side walls of the casing i, the outer extremities of the plates 52 being preferably removably attached to these flanges 53. when so mounted, the baflle plate 5| will be substantially equally spaced at its sides from the side walls of the casing 1, ,allowing air to freely pass upwardly through such spacefor subsequent entrainment of heat in its passage through the heater and over the heating elements.

The walls of the reflector shell H are preferably constructed so that the heat radiated and reflected therefrom will be diffused substantially uniformly. To this end, the sheet metal of which the reflector walls are: preferably made may be provided with diagonal intersecting grooves, as indicated by the intersecting lines in Figure 7. These grooves may be rolled, stamped, or otherwise formed in the metal, leaving diamondshaped areas therebetween, and producing a more or less embossed surface. I have found that such a surface is unusually eiilcient in its heat diflusingproperties.

It will be understood that instead of employing two auxiliary switches 43 and 45, only one such switch may be used, if preferred. Under such a condition, a little more care must be exercised in placing the heater near other objects or in the corner of a room so that the heating elements which are controlled by the single auxiliary switch are the ones which are closest to the objects or walls. By actuating the master switch 4| to its off position, all of the heating elements will be deenergized, and when it is actuated to its on position, only two of the heating elements will be energised when the auxiliary switch is in its off? position. By turning the auxiliary switch to its on position, all of the heating elements will be energized Other modifications in the electrical circuit will be obvioustothose skilled in'the art, such as the application of automatic or thermostatic controls to automatically regulate the heat as by cutting out one or all of the heating element circuits when the temperature of the room rise above a predetermined limit, and reconnecting the heating elements to the supply line when the temperature falls below a predetermined limit.

Itisalsocomprehendcdbythoinventionthat it is not necessary that'there be cheating elem'ent, such as 28, in each of the heater chambers 54. I! preferred, the heating elements may be omitted from certain of the heating chambers, and the heat which would be produced in these chambers would be derived primarily from radiation of heat from the chamber walls, which are more or less in thermal contact with the walls of the other heating-chambers. in addition, the air r circulated through these heater chambers will entrain heat as the air contacts with the chamber walls, regardless of whether there is a heating element in the particular chamber or riot Having described in the foregoing the details of my new heater, 1 shall pass now to a description of the operation of the same, having particular reference to Figures 2 and 5. Assuming the heating elements 28, or at least certain of the-m are energized, heat will be reflected outwardly of the heating chambers 14 through the openings 2 in the side walls of the outer casing or shell l. The reflected heat is supplemented by the heat radiated from. the walls of the reflector shell M. In addition tithe reflected and radiated heat, the heat will be further increased by the induction of a strong flow of air upwardly through the n This air enters the open bottom of the c texcasing or shell l, passing around the marginal edges of the baille plate 5i, and thence upwardly to the heating unit assembly I? where the air divides. In dividing, a portion of the air passes through the central apertures Fill in the base plate 68 or the heating unit assembly, and thence directly into the central flue id of the reflector unit ll. Another portion of the air passes through the apertures is directly below the heating elements 28, and thence upwardly into contact with the heating elements as clearly shown by the arrows in Figure 2. some oi this latter air will pass between the lower extremit the reflector shell H which is spaced slightly bovethe base plate It, and into the central it, as also shown by the arrows in 2, another portion oi the air will pass mound the marginal edges of the lam plate id, through the space between theplate t8 and the plates the air then rising upwardly into contact witi the respective heating elements 23 and discharging through the openings in in the side walls oi the casing l at the outer sides of the heating chambers to. That portion of the air which enters the central flue i5 is quickly heated by contact with and radiation of the walls of the reflector shell, and is ultimately discharged through the openings to at the upper end oi. the casing I., When all of the heating elements are in operation, the heat will be distributed and diffused in all directions around the heater,

whereas by manipulating the control switches previously described, the heat may be confined to certain directions only and substantially discon tinued in other directions.

While the specific details of constructions have been herein shown and described, the invention is not confined thereto as changes and alterations may be made without departing from the spirit thereof as defined by the appended claims.

Having thus described my invention, what I claim as new and desire to secure by Letters Patent is:

1. A heater 0! the class described, comprising a multi-sided casingclosed at its top and open at its bottom, each side wall having at least one opening therein, a reflector shell within the casing, said reflector shell having a plurality of interconnected, side walls forming adjoining concave chambers corresponding in number to the number of side walls or the casing and facing the respective openings in the letter, said walls of the reflector shell also forming behind 5 the chambers a central air flue, said flue and chambers being in communication with the open-- ing at the bottom of the casing, and the upper end oi. the flue communicating with the exterior of the heater through the casing, and heating elements mounted in certain of said chambers of the reflector shell.

2. A heater oi the class described, comprising a plurality of heating chambers arranged about and spaced from a common vertical. axis and 5 forming an axially open central air time, said chambers facing outwardly Irom the common axis aforesaid so that the heat will he directed laterally in all directions, heating means disposed in at least certain of the heating chambers, so and each oi said chambers having provision for iii "admitting air into the same at the bottom thereof, each heating element including a plate at the outer side thereof extending upwardly for a substantial distance from the bottom of the chamher, and the heating means being arranged in their respective ol'zumhers below the upper edge of the plates aforesaid! 3. is. heater of the class described, comprising a casing closed oi; its top and open. at its botgt; tom, means within the casing dividing the some into a plurality of aslgioining heating chambers disposed about the vertical central axis the casing and forming behind chambers a central air flue, said chambers facing outwardly reepectingthe central axis and said casing having openings therein in register with the chambers the upper end oi said air fine in corn muuication with the exterior of the heater through the casing, end said rind chambers also being communication with the cxteri of the heater the bottom oi casing, said casing dividing chamber forming means comprising a, structural unit, said casing having laterullyand inwardly directed flanges on its side walls near the tanner of the casing ior on gaging the uppc nd oi unit to support letter and heati means disposed in at h rs class described, comprising and non at its bottom, the some chambers n c means within it plurality nosed abou of: t o e ing and for; -35 air due or ing the cent lugs therein ing, and said a communication xvi disposed to the bottom thereof and at with its nml'ginal one 5. it heater oi the class a casing closed at its top or n at its bottom means within the casing di g some into a plurality of hes, rig chambers disposed about the vertical central axis or the casin and forming said a, central flue, said chambers facing outwardly respecting-,-

eing adjacent ed to the letter curbed, eomprie lid the central axis and said casing having openings therein in register with the chambers, the upper end or said air flue being in communication with the exterior of the heater through the casing, and said flue and chambers also being in communication with the exterior or the heater through the bottom of the casing, heating means disposed in at least certain of the chambers, and a common supporting base for said heating means disposed horizontally across the casing adjacent to the bottom thereof and attached to the latter with its marginal edges spaced from the casing, said supporting base having a plurality of plates carried thereby and projecting upwardly therefrom at the outer sides or the respective heating chambers and outwardly spaced from the heating elements, with the upper edges of the' plates terminating at about the level of the heating elements.

6. A heater of the class described, comprising a multi-sided casing closed at its top and open at its bottom, each side wall having at least two horizontally elongated openings formed therein, one disposed below the other, said casing having inwardly projecting reflector supporting flanges extending horizontally below the upper openings in the side walls of the casing, a structural reflector unit disposed within the casing comprising a plurality or heating chambers corresponding in number to the number of sides of the casing. each chamber having an inwardly and downwardly curved side wall, the upper portion oi said side wall being disposed on said supporting flange, said reflector unit having vertical division walls disposed between the chambers aforesaid and extending from the upper edge or the side reflector well downwardly to a point near the bottom or the side well, said reflector unit dividing said casing into'a central flue passage open at its bottom and opening outwardly above each oi the chambers mough each or the upper horizontal openings in the sides of the casing and the chambers opening outwardly through the lower of said horizontal openings in the side walls or the casing, a heating element disposed in each of said reflector chambers between the side walls of the chambers and corresponding sides of the casing, and a second reflector plate in each or the chambers supported by the casing and positioned between the heating element and the side or the casing, said plate extending across the chamber beyond the ends of the lower horizontal opening from a point about on the level with the heating element to a point substantially below said heating element.

7. In a. heater of the class described, a casing having a closed top, an open bottom and side walls, at least oneof said side walls having two or more horizontally disposed elongated openings formed therein, one above the other, a reflector unit comprising a curved side wall engaging the casing Just below the upper most opening aforesaid and curving inwardly and downwardly to a point below the openings, dividing said easing into at least two heating chambers one behind and above the other with the upper respective ends of the chambers in communication with the horizontal openings aforesaid, a supplemental reflector supporting plate disposed across the open bottom portion of the casing below and spaced from the bottom edge of the reflector side wall and secured to the casing with its edges spaced from the sides of the casing to form air inlet openings, a reflector plate carried by said supporting plate and extending upwardly from near the bottom of the side wall in front of the lower portion of the side wall of the reflector unit, and an elongated heating element disposed between the reflector unit side wall and said reflector plate about on the level with the upper edge or the'plate, and means mounting said reflector plate on said supporting plate in spaced relation to said supporting plate.

GEORGE STEINGRUBER. 

